Erythrocyte and the regulation of human skeletal  muscle blood flow and oxygen delivery:  Role of erythrocyte count and oxygenation state of  hemoglobin

doi:10.1113/jphysiol.2005.101121

Erythrocyte and the regulation of human skeletal muscle blood flow and oxygen delivery: Role of erythrocyte count and oxygenation state of hemoglobin

José Gonzàlez-Alonso¹^*, Stefan P Mortensen¹, Ellen A Dawson¹, Niels H Secher¹, and Rasmus Damsgaard¹

¹ The Copenhagen Muscle Research Centre, Rigshospitalet

^* To whom correspondence should be addressed. E-mail: jga{at}cmrc.dk.

Blood flow to dynamically contracting myocytes is regulatedto match O2 delivery to metabolic demand. The red blood cell(RBC) itself functions as an O2 sensor, contributing to thecontrol of O2 delivery by releasing the vasodilators ATP andS-nitrosohaemoglobin with the offloading of O2 from the haemoglobinmolecule. Whether RBC number is sensed remains unknown. To investigatethe role of RBC number, in isolation and in combination withalterations in blood oxygenation, on muscle and systemic perfusion,we measured local and central haemodynamics during one-leggedknee-extensor exercise (~50% peak power) in 10 healthy malesunder conditions of normocythaemia (control), anaemia, anaemia+plasmavolume expansion (PVX), anaemia+PVX+hypoxia, polycythaemia,polycythaemia+hyperoxia and polycythaemia+hypoxia, which changedeither RBC count alone or both RBC count and oxyhaemoglobin.Leg blood flow (LBF), cardiac output (Q) and vascular conductancedid not change with either anaemia or polycythaemia alone. However,LBF increased with anaemia+PVX (28±4%) and anaemia+PVX+hypoxia(46±6%) and decreased with polycythaemia+hyperoxia (18±5%).LBF and Q with anaemia+PVX+hypoxia (8.0±0.5 and 15.8±0.7l·min-1, respectively) equaled those during maximal knee-extensorexercise. Collectively, LBF and vascular conductance were intimatelyrelated to leg a-vO2 difference (r2= 0.89-0.93; P< 0.001),suggesting a pivotal role of blood O2 gradients in muscle microcirculatorycontrol. The systemic circulation accommodated to the changesin muscle perfusion. Our results indicate that, when copingwith severe haematological challenges, local regulation of skeletalmuscle blood flow and O2 delivery primarily senses alterationsin the oxygenation state of haemoglobin and, to a lesser extent,alterations in the number of RBCs and haemoglobin molecules.

Key words: Blood flow • Muscle • Red blood cell

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